Technology Development of ACP100,User Requirements of INPRO ExperienceUser Requirements of INPRO Experience
IAEA INPRO 8th Dialogue Forum 26-29 August 2014 ViennaIAEA INPRO 8 Dialogue Forum, 26 29 August 2014, Vienna
DRAFT
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CONTENTS
T h i l A I d i f ACP100Technical Aspects --Introduction of ACP100User Requirements of INPRO Experienceq f p
Technical Aspects
Introduction of ACP100
CNNC SMR, code ACP100, is an innovative PWR based on existing PWR technology , adapting “passive” safety system andadapting passive safety system and “integrated” reactor design technology;No operator intervention needed in 72 hours of accident ;Passive severe accident prevention and mitigation action such as for containmentmitigation action, such as for containment hydrogen eliminator, cavity flooding etc. to ensure the integrity of pressure containment;The modular design technique is easy to control the product quality and shorten the site construction periodsite construction period.
Technical Aspects
Main design parameters Thermal power 310MWt
Electrical power 100MWeElectrical power ~100MWe
Design life 60 years
Refueling period 2 yearsg p y
Coolant inlet temperature 282 ℃
Coolant outlet temperature 323 ℃
Coolant average temperature 303 ℃
Best estimate flow 6500 m3/h
Operation pressure 15MPaaOpe at o p essu e 5 aa
Fuel assembly type CF2 shortened assembly
Fuel active section height 2150 ㎜
Fuel assembly number 57
ACP100
Technical Aspects
(1) Primary system and equipment integrated layout
Main characteristics
(1) Primary system and equipment integrated layout.The maximal size of the conjunction pipe is 5-8 cm,
h th l PWR i 80 90whereas the large PWR is 80-90cm.
(2) Large primary coolant inventory.
(3) Small radioactivity storage quantity. Totalradioactivity of SMR is 1/10 of large PWR’sradioactivity of SMR is 1/10 of large PWR s,meanwhile multi-layer barrier is added to keep theaccident source term at a low levelaccident source-term at a low level.
(4) Vessel and equipment layout is benefit for naturalcirculation.
Technical Aspects
(5) Assurance decay heat removal more effectively 2-4Main characteristics(continued)
(5) Assurance decay heat removal more effectively. 2-4times of the efficiency of large PWR heat removalfrom the vessel surfacefrom the vessel surface.
(6) Smaller decay thermal power. 1/5-1/10 times ofdecay thermal power comparing that of large PWRafter shutdown, and is easier to achieve safety byy ythe way of “passive”.
(7) Reactor and spent fuel pool lay under the ground(7) Reactor and spent fuel pool lay under the groundlevel for better against exterior accident and goodf th d ti f di ti t i l lfor the reduction of radioactive material release.
Technical Aspects
Nuclear steam supply systemIntegrated layout instead ofIntegrated layout instead of
loop typeMain pump and reactor
pressure vessel connected by short pipe
Steam generator sets inSteam generator sets in reactor pressure vessel
Nuclear steam supply system pp y yintegrated to reactor module
CRDM, pressure vessel, reactor internals, OTSG, and canned motor pump all mature technologytechnology
ACP100
Technical Aspects
The design of ACP100 totally meet the requirements of nuclear laws and Codes and Standards applied by ACP100 (1/2)
L l 1 L I d b th C ( d t )
g y qregulations in china. The nuclear safety laws, codes, regulations and standards used in china is divided into 5 different levels.
Level 1, Laws - Issued by the Congress (mandatory).
Level 2, Codes and Regulations - Issued by the State Council (mandatory). Setting up administrative scope, principles, organizations and its’ functions etc;p p , p p , g
Level 3, Departmental Rules - Issued by governmental organizations (mandatory). Defining the implemental methods based on the Regulations. Setting up nuclear safety objectives and basic requirements (NNSA)objectives and basic requirements; (NNSA)
Level 4, the Guides - Issued by the Governmental organizations (recommendatory). Recommending the methods or procedures to satisfy the safety requirements;
Level Technical documents-Issued by 5, the Governmental organizations (referential).
Technical Aspects
Codes and Standards applied by ACP100 (2/2)
LawMandatory
①By People’s Congress
RegulationsMandatory
②By State Council
Departmental RulesMandatory
③ By Governmental Department(s)
Safety GuidesGuiding Doc.
④ By Governmental Department(s)
Technical DocumentsReference Doc.
⑤ By Governmental Department(s)
9
All major equipment are localized design and manufactured local
potential supplier:potential supplier:
Reactor vessel potential supplier: China Yizhong Group, China
Erzhong Group Dongzhong GroupErzhong Group, Dongzhong Group
Canned pump: Habin Electrical Group, Dongfang Electrical Group
R t i t l D f W h C Sh h i N 1 hiReacter internal: Dongfang Wuhan Co. , Shanghai No.1 machine
tool Co.
Control Rod Drive Mechanishm: Shanghai No.1 machine tool Co.,
Sichuan Huadu Co.
SCF2 fuel assembly: CNNC Yibin Fuel Assembly Co.
10Mwe stem turbine: Habin Electrical Group, Dongfang Electrical
Group, Shanghai Electrical Group
All major validation testing facilities and testing are localized
control rod drive line cold and hot testing
passive emergency core cooling system integration
22 11
CMT and fuel assembly
and hot testing system integration testing
33passive residual heat removal
t t ti
ycritical heat flux testingMajor TestingMajor Testing
6633
system testing
internals control rod drive55internals vibration testing
control rod drive line anti seismic
testing
44 55
licensing status of ACP100 in China
Signed a contract of SMR combined research with National Nuclear & Radiation Safety Center in 2011, and developed the following works:
National Nuclear & Radiation Safety Center gave the comments onthe SMR research report of design preparation phase;
Had a technical exchange of SMR containment design after Fukushima nuclear accident;
Passive integration test research technical exchange, and the test program was approved;
Completed the Q1 questions and question reply of concept design stage, and the concept design was approved;
Sign several specific research programmers and standard design safety analysis combined research with National Nuclear & Radiation Safety Center in year 2013.
licensing status of ACP100 in China: Challenge
Multiple modules per site
In China, National standard GB 6249-2011 ‘Regulation for environmental radiation protection of nuclear power plant’ gives the radiation discharges for a single unit nuclear power plant. For g g p pmultiple reactors in same site , it requires the radiation discharges cannot exceed 4 times than that of single unit nuclear power plant.
Thus cause a problem for SMR due to multiple units on the same sites, sometimes more than 10 SMR units on the same sites.
We suggests to use total radiation discharges for per site than that of per units or several units.
licensing status of ACP100 in China: Challenge
Emergency planning zone
Historically , Emergency planning zone have been set based onconservative approaches to calculating bounding individual dose rate subsequent to a postulated accident sequence The zones arerate subsequent to a postulated accident sequence. The zones areranging up to 10 miles.
I Chi th i 7 t 10 kil tIn China, the range is 7 to 10 kilometers.However, SMRs are designed for local grid and non electrical application, such as district heating, desalination.
Reduction of Emergency planning zone is essential important for SMR’s future deployment.p y
User Requirements of INPRO Experience
User requirement UR1: An adequate legal framework should be established to cover the issues of nuclear liability, safety and radiation protection, environmental protection, control of operation waste management and decommissioning securityoperation, waste management and decommissioning, security, and non-proliferation. Criterion CR1.1 legal aspectsg pIndicator IN1.1: Status of legal framework. Acceptance limit AL1.1: Legal framework has been established,
i d ith i t ti l t d din accordance with international standards.
Law
Regulations
Departmental RulesDepartmental Rules
Safety Guides
Technical Documents
In China, five levels of codes or standards are established. Regulations and departmental rules are conform with IAEA’s safety requirements Safety guides are conform with IAEAsafety requirements. Safety guides are conform with IAEA specific safety requirements as , Technical documents is conform with IAEA TECDOC. All power reactors, including ACP100 th l d idACP100 uses the same rules and guides.
Criterion CR1.2 institutions Indicator IN2: Status of State organizations with responsibilitiesIndicator IN2: Status of State organizations with responsibilities for safety and radiation protection, environmental protection, control of operation, waste management and decommissioning, emergency preparedness and response security and non-emergency preparedness and response, security, and non-proliferation. Acceptance Limit AL1.2: State organizations have been
t bli h d i d ith i t ti l t d destablished, in accordance with international standards.
In China, National Nuclear Safety Authority is responsible for safety and radiation protection environmental protection control ofand radiation protection, environmental protection, control of operation, waste management and decommissioning.
China Atomic Energy Agency is responsible for emergencyChina Atomic Energy Agency is responsible for emergency preparedness and response, security, and non-proliferation.
Minimization of infrastructure (UR5)
Reductions of necessary infrastructure could have been achieved by reducing the necessary human resources to operate, maintain and repair the new nuclear facility and during construction of aand repair the new nuclear facility, and during construction of a nuclear facility by using prefabrication of components.
In the initial design of ACP100, major components, such as reactor vessel, internal OTSG can be welding in the factory and transport to the site together thus shorten the manufacture and installation timethe site together thus shorten the manufacture and installation time
User requirement UR5: The nuclear energy system should be designed to minimize the necessary infrastructure.
Whether the designer has succeeded in reducing the necessary infrastructure needed for a new facility in comparison to an existing (or reference) facility.
The major components of ACP100 are manufactured by the same j p yfactory of large nuclear power components suppliers. For examples, The fuel assembly, the control drive mechanism, reactor vessel and reactor internalsreactor vessel and reactor internals
A technology user as the INPRO assessor is assumed to prefer d i f l f iliti t b i t ll d i hi t iproven designs of nuclear facilities to be installed in his country, i.e.
designs that do have an existing reference facility already licensed and in operation.
For FOAK SMR, it is difficult to find a suitable reference facilities but most of the components of ACP100 have its operation experience in p p pthe past large nuclear power plant, for example, pumps, valves and pipes, they are using the same technology but different size, dimension and power The supplies of these components can providedimension and power. The supplies of these components can provide the past operation feedback information.
The innovations in the ACP100 NES (or facility thereof) decrease the ( y )need (and cost) for various parts of the infrastructure. As an example, the OTSG of ACP100 is a highly reliable component significantly reduced maintenance.significantly reduced maintenance.With its less source term and higher safety, ACP100 technically would not need large emergency preparedness facilities or a large exclusion zoneexclusion zone.With its relative large inventory in the reactor vessel, ACP100 has very slow transients that could be monitored remotely, would reduce the need for corresponding infrastructure.
The first aspects of ACP100 is reduce manufacture time. The extent to which prefabrication of components can be utilized toextent to which prefabrication of components can be utilized to reduce construction works. Some major components of ACP100 can be manufactured and assembled in the same factory and transported to the site at the same time.
The second aspect is related to the amount of work to be performed during the construction and erection of the facility. With modular design, with modular nuclear steam supply system by the merit of integrated design could decrease the amount of human e t o teg ated des g cou d dec ease t e a ou t o u aresources and some equipment needed at the construction site.
IN CONCLSION
INPRO has formulated three criteria for UR5 covering theINPRO has formulated three criteria for UR5 covering the aspects discussed above as follows.
IN CONCLSIONIN CONCLSION
• For ACP100 and most of the small modular reactors the mainFor ACP100 and most of the small modular reactors, the main control room can be used for two or more reactors thus reducing the necessary human resources. F ACP100 d t f th ll d l t th i il• For ACP100 and most of the small modular reactors, the civil structure can prefabricated in the factory and transport to site thus reducing the necessary human resources.